/*
   Copyright (c) 2003, 2010, Oracle and/or its affiliates. All rights reserved.

   This program is free software; you can redistribute it and/or modify
   it under the terms of the GNU General Public License as published by
   the Free Software Foundation; version 2 of the License.

   This program is distributed in the hope that it will be useful,
   but WITHOUT ANY WARRANTY; without even the implied warranty of
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
   GNU General Public License for more details.

   You should have received a copy of the GNU General Public License
   along with this program; if not, write to the Free Software
   Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301  USA
*/



#include <BlockNumbers.h>
#include <signaldata/ScanTab.hpp>
#include <signaldata/ScanFrag.hpp>

bool
printSCANTABREQ(FILE * output, const Uint32 * theData, Uint32 len, Uint16 receiverBlockNo){
  
  const ScanTabReq * const sig = (ScanTabReq *) theData;
  
  const UintR requestInfo = sig->requestInfo;

  fprintf(output, " apiConnectPtr: H\'%.8x", 
	  sig->apiConnectPtr);
  fprintf(output, " requestInfo: H\'%.8x:\n",  requestInfo);
  fprintf(output, "  Parallellism: %u Batch: %u LockMode: %u Keyinfo: %u Holdlock: %u RangeScan: %u Descending: %u TupScan: %u\n ReadCommitted: %u DistributionKeyFlag: %u NoDisk: %u spj: %u",
	  sig->getParallelism(requestInfo), 
	  sig->getScanBatch(requestInfo), 
	  sig->getLockMode(requestInfo), 
	  sig->getKeyinfoFlag(requestInfo),
	  sig->getHoldLockFlag(requestInfo), 
	  sig->getRangeScanFlag(requestInfo),
          sig->getDescendingFlag(requestInfo),
          sig->getTupScanFlag(requestInfo),
	  sig->getReadCommittedFlag(requestInfo),
	  sig->getDistributionKeyFlag(requestInfo),
	  sig->getNoDiskFlag(requestInfo),
          sig->getViaSPJFlag(requestInfo));
  
  if(sig->getDistributionKeyFlag(requestInfo))
    fprintf(output, " DKey: %x", sig->distributionKey);
  
  Uint32 keyLen = (sig->attrLenKeyLen >> 16);
  Uint32 attrLen = (sig->attrLenKeyLen & 0xFFFF);
  fprintf(output, " attrLen: %d, keyLen: %d tableId: %d, tableSchemaVer: %d\n",
	  attrLen, keyLen, sig->tableId, sig->tableSchemaVersion);
  
  fprintf(output, " transId(1, 2): (H\'%.8x, H\'%.8x) storedProcId: H\'%.8x\n",
	  sig->transId1, sig->transId2, sig->storedProcId);
  fprintf(output, " batch_byte_size: %d, first_batch_size: %d\n",
          sig->batch_byte_size, sig->first_batch_size);
  return false;
}

bool
printSCANTABCONF(FILE * output, const Uint32 * theData, Uint32 len, Uint16 receiverBlockNo){
  
  const ScanTabConf * const sig = (ScanTabConf *) theData;
  
  const UintR requestInfo = sig->requestInfo;

  fprintf(output, " apiConnectPtr: H\'%.8x\n", 
	  sig->apiConnectPtr);
  fprintf(output, " transId(1, 2): (H\'%.8x, H\'%.8x)\n",
	  sig->transId1, sig->transId2);

  fprintf(output, " requestInfo: Eod: %d OpCount: %d\n", 
	  (requestInfo & ScanTabConf::EndOfData) == ScanTabConf::EndOfData,
	  (requestInfo & (~ScanTabConf::EndOfData)));
  size_t op_count= requestInfo & (~ScanTabConf::EndOfData);
  if (op_count)
  {
    fprintf(output, " Operation(s) [api tc rows len]:\n");
    if (len == ScanTabConf::SignalLength + 4 * op_count)
    {
      ScanTabConf::OpData * op = (ScanTabConf::OpData*)
        (theData + ScanTabConf::SignalLength);
      for(size_t i = 0; i<op_count; i++)
      {
        fprintf(output, " [0x%x 0x%x %d %d]",
                op->apiPtrI, op->tcPtrI,
                op->rows, op->len);
        op++;
      }
    }
    else
    {
      assert(len == ScanTabConf::SignalLength + 3 * op_count);
      for(size_t i = 0; i<op_count; i++)
      {
        ScanTabConf::OpData * op = (ScanTabConf::OpData*)
          (theData + ScanTabConf::SignalLength + 3 * i);
        fprintf(output, " [0x%x 0x%x %d %d]",
                op->apiPtrI, op->tcPtrI,
                ScanTabConf::getRows(op->rows),
                ScanTabConf::getLength(op->rows));
      }
    }
    fprintf(output, "\n");
  }
  return false;
}

bool
printSCANTABREF(FILE * output, const Uint32 * theData, Uint32 len, Uint16 receiverBlockNo){
  
  const ScanTabRef * const sig = (ScanTabRef *) theData;
  
  fprintf(output, " apiConnectPtr: H\'%.8x\n", 
	  sig->apiConnectPtr);

  fprintf(output, " transId(1, 2): (H\'%.8x, H\'%.8x)\n",
	  sig->transId1, sig->transId2);
  
  fprintf(output, " Errorcode: %u\n", sig->errorCode);
  
  fprintf(output, " closeNeeded: %u\n", sig->closeNeeded);
  return false;
}


bool
printSCANFRAGNEXTREQ(FILE * output, const Uint32 * theData, Uint32 len, Uint16 receiverBlockNo){
  const ScanFragNextReq * const sig = (ScanFragNextReq *) theData;
  
  fprintf(output, " senderData: H\'%.8x\n", 
	  sig->senderData);
  
  fprintf(output, " transId(1, 2): (H\'%.8x, H\'%.8x)\n",
	  sig->transId1, sig->transId2);
  
  fprintf(output, " requestInfo: 0x%.8x\n", sig->requestInfo);

  fprintf(output, " batch_size_rows: %u\n", sig->batch_size_rows);
  fprintf(output, " batch_size_bytes: %u\n", sig->batch_size_bytes);

  return false;
}

bool
printSCANNEXTREQ(FILE * output, const Uint32 * theData, Uint32 len, Uint16 receiverBlockNo){

  if(receiverBlockNo == DBTC){
    const ScanNextReq * const sig = (ScanNextReq *) theData;
    
    fprintf(output, " apiConnectPtr: H\'%.8x\n", 
	    sig->apiConnectPtr);
    
    fprintf(output, " transId(1, 2): (H\'%.8x, H\'%.8x) ",
	    sig->transId1, sig->transId2);
    
    fprintf(output, " Stop this scan: %u\n", sig->stopScan);

    const Uint32 * ops = theData + ScanNextReq::SignalLength;
    if(len > ScanNextReq::SignalLength){
      fprintf(output, " tcFragPtr(s): ");
      for(size_t i = ScanNextReq::SignalLength; i<len; i++)
	fprintf(output, " 0x%x", * ops++);
      fprintf(output, "\n");
    }
  }
  if (receiverBlockNo == DBLQH){
    return printSCANFRAGNEXTREQ(output, theData, len, receiverBlockNo);
  }
  return false;
}

